Keyphrases
Organic Solar Cells
100%
High Performance
100%
Infrared Absorption
100%
Porphyrin Donor
100%
Visible-infrared
100%
Dimeric Porphyrin
100%
Small Molecules
66%
Bulk Heterojunction Organic Solar Cells
66%
PC71BM
66%
ELUMO
66%
Visible Light
33%
Light Harvesting
33%
Open-circuit Voltage
33%
High Power Conversion Efficiency
33%
Fill Factor
33%
Device Performance
33%
AM1.5G
33%
Organic Matter
33%
Charge Separation
33%
Energy Offset
33%
Highest Occupied Molecular Orbital
33%
Lowest Unoccupied Molecular Orbital
33%
Narrow Gap
33%
Short-circuit Current
33%
Low Band Gap
33%
Energy Loss
33%
Electric Current
33%
Near-infrared Light
33%
Low Energy Loss
33%
Solar Irradiation
33%
Small Energy
33%
Separation Process
33%
Deep Energy Levels
33%
Photoinduced Charge Separation
33%
Near-infrared Light Harvesting
33%
Super-low
33%
Empirical Thresholds
33%
Engineering
Organic Solar Cells
100%
Heterojunctions
66%
Lowest Unoccupied Molecular Orbital
66%
Band Gap
66%
Infrared Light
66%
Energy Dissipation
66%
Power Conversion Efficiency
33%
Fill Factor
33%
Open Circuit Voltage
33%
Highest Occupied Molecular Orbital
33%
Driving Force
33%
Device Performance
33%
Organic Material
33%
Solar Irradiation
33%
Limiting Factor
33%
Chemistry
Organic Solar Cells
100%
Donor
100%
Porphyrin
100%
Lowest Unoccupied Molecular Orbital
66%
Band Gap
66%
Visible Spectrum
33%
Light Harvesting
33%
Highest Occupied Molecular Orbital
33%
Current
33%
Solar Radiation
33%
Material Science
Organic Solar Cells
100%
Electronic Circuit
66%
Heterojunction
66%
Chemical Engineering
Porphyrin
100%
Separation Method
33%